KR101231336B1 - Mobile communication device and communication control method - Google Patents

Abstract

It is to provide a portable communication device and a communication control method capable of communicating by an antenna of stable high communication quality at all times while suppressing power consumption. The first antenna 31, the second antenna 32, and the first antenna 31 are used for continuous communication, and the second antenna 32 is used to receive signals intermittently. An analysis unit for analyzing the communication quality of the second antenna 32 based on the communication unit 33 and the information about the signal intermittently received by the communication unit 33 using the second antenna 32 ( 34 and when the communication quality of the second antenna 32 analyzed by the analysis unit 34 is a communication quality level equal to or greater than a predetermined communication quality level, communication is continuously performed using the second antenna 32. In addition, it has a control unit 35 for controlling to receive the signal intermittently by using the first antenna (31).

Description

Mobile communication device and communication control method {MOBILE COMMUNICATION DEVICE AND COMMUNICATION CONTROL METHOD}

The present invention relates to a portable communication device having a plurality of antennas and a communication control method.

In recent portable communication devices, there has been a model employing a diversity method in order to ensure a constant communication quality during movement. There are two types of diversity systems, a switching method and a synthesis method. The switching method is a method in which a receiver having a high communication quality is selected in two branches (two antennas and, in some cases, two receivers) to maintain the reception quality. In addition, the combining method is a method of combining the inputs of two branches to improve the reception quality.

Here, the synthesis method has a disadvantage that the reception quality is higher than the switching method, but the power consumption is increased. In order to solve this drawback, various techniques are proposed (for example, refer patent document 1).

According to Patent Document 1, at first, only one branch (antenna) is turned ON to perform communication (switching method), and the other branch (antenna) is turned ON based on the communication quality of the receiver during communication. Disclosed is a technique of performing communication using a combination of antennas (synthesis method). In addition, Patent Document 1 discloses a technique of performing communication (switching method) by turning off one antenna based on the communication quality of the other antenna when communicating with both antennas in combination. In this way, a technique for improving power consumption by using a switching method and a synthesis method in combination with a receiving situation has been proposed.

Japanese Patent Publication No. 2007-129630

Here, in the case of adopting Patent Document 1, when communicating with the other antenna, even if the communication quality of one antenna is higher than the other antenna, it is not based on the communication quality of the other antenna. Unless the antenna is switched, control of switching between antennas cannot be performed. For this reason, there is a concern that communication cannot be performed using one antenna having high communication quality, and that optimum communication quality cannot be maintained properly.

An object of the present invention is to provide a portable communication device and communication control method capable of maintaining high communication quality.

(1) In order to solve the above-mentioned problems, the portable communication device according to the present invention continuously transmits or receives a signal using a first antenna, a second antenna, and the first antenna. Analyzing a communication quality of the second antenna based on a communication unit for receiving a signal intermittently by using a second antenna and information on a signal intermittently received by the communication unit by using the second antenna. When the communication quality of the analysis unit and the second antenna analyzed by the analysis unit is a communication quality level equal to or greater than a predetermined communication quality level, the signal is continuously transmitted or received using the second antenna. And a control unit controlling to receive the signal intermittently by using the first antenna.

(2) In the present invention, in the portable communication device of (1), the analysis unit is configured to determine the first antenna based on information about a signal continuously received by the communication unit using the first antenna. The communication quality is analyzed, and the control unit is further configured to, when the communication quality of the second antenna analyzed by the analyzing unit is a communication quality level equal to or greater than the communication quality of the first antenna analyzed by the analyzing unit. In addition to continuously transmitting or receiving signals using a second antenna, it is preferable to receive signals intermittently using the first antenna.

(3) In order to solve the above problem, the portable communication device according to the present invention continuously transmits or receives a signal using a first antenna, a second antenna, and the first antenna, Analyzing the communication quality of the first antenna based on a communication unit for intermittently receiving a signal using a second antenna and information on a signal continuously received by the communication unit using the first antenna; When the communication quality of the analysis unit and the first antenna analyzed by the analysis unit is a communication quality level equal to or greater than a predetermined communication quality level, a period for intermittently receiving a signal using the second antenna is lengthened. And a control unit for receiving a signal.

(4) In order to solve the above problem, the portable communication device according to the present invention continuously transmits or receives a signal using a first antenna, a second antenna, and the first antenna, Analyzing the communication quality of the first antenna based on the communication unit for receiving the signal intermittently using the second antenna and the information about the signal continuously received by the communication unit using the first antenna. And an analysis unit for analyzing the communication quality of the second antenna based on information about a signal intermittently received by the communication unit using the second antenna, and the first analysis unit analyzed by the analysis unit. When the communication quality of the first antenna and the communication quality of the second antenna are each a communication quality level equal to or less than a predetermined communication quality level, the first antenna and the second It characterized in that it has a control unit for continuously transmitting or receiving signals using an antenna.

(5) In the communication control method according to the present invention, in order to solve the above problems, when the signal is continuously transmitted or received using the first antenna and the signal is intermittently received using the second antenna. An analysis step of analyzing a communication quality of the second antenna based on information about a signal intermittently received using the second antenna, and a communication quality of the second antenna analyzed by the analysis step When the communication quality level is equal to or greater than the predetermined communication quality level, a control step of continuously transmitting or receiving a signal using the second antenna and intermittently receiving the signal using the first antenna. Characterized in having a.

According to the present invention, it is possible to provide a portable communication device and a communication control method capable of maintaining high communication quality.

1 is a view showing the appearance of a cellular phone device according to the present invention.
2 is a functional block diagram showing the functions of the cellular phone apparatus according to the present invention.
3 is a diagram used for explaining the timing of switching the antenna according to the present invention.

Hereinafter, an embodiment of the present invention will be described. 1 shows an external perspective view of a cellular phone device 1 which is an example of a portable communication device according to the present invention. In the following, a mobile phone device will be described. However, the present invention is not limited thereto, and the present invention may be provided with a plurality of antennas. ), A portable navigation device, a notebook computer, or the like.

The cellular phone device 1 includes an operation unit side housing part 2 and a display unit side housing part 3. The operation part side housing part 2 is provided with the operation part group 11 and the microphone 12 which inputs the voice which the user of the mobile telephone apparatus 1 made at the time of a telephone call to the surface part 10. As shown in FIG. The operation key group 11 includes a function setting operation button 13 for operating various settings, various functions such as a phone book function and an e-mail function, and an input operation button for inputting characters such as numbers and mails of a telephone number. (14) and the determination operation button 15 which performs determination, scrolling, etc. in various operations.

In addition, the display unit side housing unit 3 includes a display 21 for displaying various types of information on the surface unit 20, an audio output unit 22 for outputting voices on the other side of the call, and a CCD for imaging the subject. (Charge Coupled Device) An imaging unit 23 constituted by a camera or the like and a speaker 24 for outputting music or the like to the outside are provided.

Moreover, the upper end part of the operation part side housing part 2 and the lower end part of the display part side housing part 3 are connected via the hinge mechanism 4. Moreover, the mobile telephone apparatus 1 rotates the operation part side housing part 2 and the display part side housing part 3 relatively connected via the hinge mechanism 4, and the operation part side housing part 2 and the display part side housing | casing are relatively rotated. The part 3 may be in an open state (open state), or the operating part side housing part 2 and the display part side housing part 3 may be in a folded state (folded state).

In addition, although FIG. 1 has shown the form of what is called a folding type | mold portable telephone apparatus, as a form of the cellular telephone apparatus which concerns on this invention, it is not specifically limited to this. A sliding type in which one housing is slid in one direction from the state in which the operation unit side housing part 2 and the display unit side housing part 3 are nested together, or the operation unit side housing part 2 and the display unit side housing part 3. The rotary type (turn type) which rotates one housing about the axis line along the mutually nested directions, or the operation part side housing part 2 and the display part side housing part 3 is arrange | positioned in one housing, and has no connection part. Type (straight type) or the like may be used.

The cellular phone device 1 according to the present invention intermittently monitors the communication quality of the other antenna when communicating with one antenna, and the other antenna has a higher communication quality than the one antenna. If it is increasing, it has a function of switching from one antenna to the other antenna.

<First Embodiment>

Here, the configuration for exhibiting the function will be described using the functional block diagram shown in FIG. As shown in FIG. 2, the cellular phone device 1 includes a first antenna 31, a second antenna 32, a communication unit 33, an analysis unit 34, and a control unit 35. It is provided. In addition, the cellular phone device 1 employs a diversity method of reception using the first antenna 31 and the second antenna 32.

The communication unit 33 continuously transmits or receives a signal using the first antenna 31, and intermittently (for example, once every few seconds, hundreds of msec using the second antenna 32). Receive signals at intervals of a degree).

The analysis unit 34 analyzes the communication quality of the second antenna 32 based on the information A about the signal intermittently received by the communication unit 33 using the second antenna 32. Further, the information A is related to, for example, reception strength due to C (carrier) and the like, reception efficiency due to C / N (carrier to noise ratio) value, and reception strength due to AGC (automatic gain control). Information based on communication quality such as electric field strength, which is not limited.

The control unit 35, when the communication quality of the second antenna 32 analyzed by the analysis unit 34 is a communication quality level equal to or greater than a predetermined communication quality level (C, C / N, AGC, etc. are greater than or equal to a predetermined value). Case), the communication unit 33 is controlled so as to continuously transmit or receive signals using the second antenna 32 and to receive signals intermittently using the first antenna 31.

With this configuration, in the present invention, when the first antenna 31 is communicating, the first antenna 31 and the second antenna are based on the communication quality of the second antenna 32. Which of 32 can be used to determine whether to communicate (send or receive a signal). In addition, since the reception of the signal by the second antenna 32 is performed intermittently, high communication quality is maintained while power consumption is suppressed.

Second Embodiment

In addition, as shown in FIG. 2, the cellular phone device 1 includes a first antenna 31, a second antenna 32, a communication unit 33, an analysis unit 34, and a control unit ( 35). In addition, the cellular phone device 1 employs a diversity method of reception using the first antenna 31 and the second antenna 32.

The communication unit 33 continuously transmits or receives a signal using the first antenna 31, and intermittently (for example, once every few seconds, hundreds of msec using the second antenna 32). Receive signals at intervals of a degree).

The analysis part 34 analyzes the communication quality of the 1st antenna 31 based on the information B regarding the signal continuously received by the communication part 33 using the 1st antenna 31. FIG. Further, the information A and the information B are due to, for example, reception strength due to C (carrier) or the like, reception efficiency due to C / N (carrier to noise ratio) value, or AGC (automatic gain control). Information based on communication quality, such as electric field strength, which is not limited to reception strength.

The control part 35 is a communication quality level of the communication quality of the 1st antenna 31 analyzed by the analysis part 34 that the communication quality of the 2nd antenna 32 analyzed by the analysis part 34 is more than. In the case (C, C / N, AGC, etc. according to the second antenna 32 is higher than C, C / N, AGC, etc., according to the first antenna 31), the second antenna 32 The communication unit 33 is controlled to receive or transmit a signal continuously by using the first antenna 31 and to receive the signal intermittently by using the first antenna 31.

With this configuration, according to the present invention, any one of the first antenna 31 and the second antenna 32 based on the contrast of the communication quality between the first antenna 31 and the second antenna 32. Can be used to accurately determine whether to communicate (send or receive a signal). Therefore, high communication quality can be appropriately maintained.

Third Embodiment

In addition, as shown in FIG. 2, the cellular phone device 1 includes a first antenna 31, a second antenna 32, a communication unit 33, an analysis unit 34, and a control unit ( 35). In addition, the cellular phone device 1 employs a diversity method of reception using the first antenna 31 and the second antenna 32.

The communication unit 33 continuously transmits or receives a signal using the first antenna 31, and intermittently (for example, once every few seconds, hundreds of msec using the second antenna 32). Receive signals at intervals of degrees).

The analysis part 34 analyzes the communication quality of the 1st antenna 31 based on the information A regarding the signal continuously received by the communication part 33 using the 1st antenna 31. FIG. Further, the information A is related to, for example, reception strength due to C (carrier) and the like, reception efficiency due to C / N (carrier to noise ratio) value, and reception strength due to AGC (automatic gain control). Information based on communication quality such as electric field strength, which is not limited.

The control unit 35, when the communication quality of the first antenna 31 analyzed by the analysis unit 34 is a communication quality level equal to or greater than the predetermined communication quality level (C, C / N, AGC, etc. are greater than or equal to the predetermined value). Case), the communication unit 33 is controlled to receive a signal by extending the period for intermittently receiving the signal using the second antenna 32.

In this way, in the present invention, when the communication quality of the first antenna 31 is high, the intermittent reception period of the second antenna 32 is lengthened, so that power saving can be appropriately achieved. have. In the present invention, when the first antenna 31 is communicating, the first antenna 31 and the second antenna 32 are based on the communication quality of the second antenna 32. Which of these can be used to determine whether communication (transmission or reception of signals) should be performed. In addition, since the reception of the signal by the second antenna 32 is performed intermittently, high communication quality is maintained while power consumption is suppressed.

&Lt; Fourth Embodiment >

In addition, as shown in FIG. 2, the cellular phone device 1 includes a first antenna 31, a second antenna 32, a communication unit 33, an analysis unit 34, and a control unit ( 35). In addition, the cellular phone device 1 employs a diversity method of reception using the first antenna 31 and the second antenna 32.

The communication unit 33 continuously transmits or receives a signal using the first antenna 31, and intermittently (for example, once every few seconds, hundreds of msec using the second antenna 32). Receive signals at intervals of a degree).

The analysis part 34 analyzes the communication quality of the 1st antenna 31 based on the information B regarding the signal continuously received by the communication part 33 using the 1st antenna 31. FIG. Moreover, the analysis part 34 analyzes the communication quality of the 2nd antenna 32 based on the information A about the signal which is intermittently received by the communication part 33 using the 2nd antenna 32. FIG. . Further, the information A and the information B are due to, for example, reception strength due to C (carrier) or the like, reception efficiency due to C / N (carrier to noise ratio) value, or AGC (automatic gain control). Information based on communication quality, such as electric field strength, which is not limited to reception strength.

The control unit 35, when the communication quality of the first antenna 31 and the communication quality of the second antenna 32 analyzed by the analysis unit 34 are each a communication quality level of a predetermined communication quality level or less. (When C, C / N, AGC, or the like is less than or equal to a predetermined value), the communication unit 33 is controlled to continuously transmit or receive a signal using the first antenna 31 and the second antenna 32. .

With this configuration, in the present invention, when both of the communication quality of the first antenna 31 and the communication quality of the second antenna 32 are each less than or equal to the predetermined communication quality level, the first antenna 31 is used. And a method of transmitting or receiving a signal using both of the second antennas 32, a so-called synthesis method. Therefore, high communication quality can be appropriately maintained.

Based on the above-described <first embodiment> to <fourth embodiment>, the timing of switching between the first antenna 31 and the second antenna 32 will be specifically described with reference to FIG. 3. Explain.

As shown in FIG. 3, the control unit 35 does not have a constant communication quality level at the time t1 at either the first antenna 31 or the second antenna 32 (weak field). A method (synthesis method) using both the first antenna 31 and the second antenna 32 in an ON state is employed (corresponding to the fourth embodiment).

Moreover, as shown in FIG. 3, since the 2nd antenna 32 has a higher communication quality level than the 1st antenna 31 at the time t2, as shown in FIG. The method (switching system) which uses the antenna 31 in OFF state and the 2nd antenna 32 in ON state is employ | adopted. Moreover, the control part 35 receives a signal intermittently using the 1st antenna 31, and controls the communication part 33 so that the level of the communication quality by the 1st antenna 31 may be monitored. Corresponding to the first embodiment and the second embodiment).

In addition, as shown in FIG. 3, the control unit 35 has a higher communication quality level than the second antenna 32 at the time t3 (the middle electric field). The method (switching system) which uses the antenna 31 of 1 in the ON state, and uses the 2nd antenna 32 in the OFF state is employ | adopted. Moreover, the control part 35 receives a signal intermittently using the 2nd antenna 32, and controls the communication part 33 so that the level of the communication quality by the 2nd antenna 32 may be monitored. Corresponding to the first embodiment and the second embodiment).

Moreover, as shown in FIG. 3, the control part 35 is in the state which does not exist in a constant communication quality level either in the 1st antenna 31 and the 2nd antenna 32 again at time t4. In this case (weak electric field), a method (synthesis method) using both the first antenna 31 and the second antenna 32 in an ON state is employed (corresponding to the fourth embodiment).

In this manner, according to the present invention, communication can be performed by an antenna of stable high communication quality while suppressing power consumption. Moreover, according to this invention, even if the threshold value of the level of the communication quality at the time of changing the 1st antenna 31 and the 2nd antenna 32 is set near a weak electric field, the communication quality can be stabilized. . Therefore, the power consumption can be reduced.

In addition, in the above-mentioned <first embodiment>, <second embodiment>, and <third embodiment>, when communication is carried out by one antenna, the communication quality of the other antenna is changed. When the communication quality of the other antenna is good, it is explained that the control is switched to switching from one antenna to the other antenna, but when the switching of the antenna occurs frequently, the power consumption increases, so that even if a constant hysteresis is formed, do. Specifically, the switching control of the antenna is performed on the condition that the communication quality level of a predetermined level or more is ensured continuously for a predetermined time.

1: mobile phone device
31: first antenna
32: second antenna
33: communication unit
34: analysis unit
35: control unit

Claims (5)

A first antenna,
A second antenna,
A communication unit which transmits or receives a signal using the first antenna and the second antenna,
A signal received by the communication unit using the second antenna while analyzing the communication quality of the first antenna based on the information about the signal received by the communication unit using the first antenna. An analysis unit for analyzing a communication quality of the second antenna based on information about
The second unit analyzed by the analyzing unit when the communication unit continuously transmits or receives a signal using the first antenna and receives a signal intermittently using the second antenna. When the communication quality of the antenna reaches a communication quality level equal to or greater than a predetermined communication quality level, the communication unit continuously transmits or receives a signal by using the second antenna, and intermittently by using the first antenna. Receiving a signal, and when the communication quality of the second antenna continuously transmitting or receiving the signal is a communication quality level equal to or greater than a predetermined communication quality level, the signal is intermittently received using the first antenna. And a control unit for controlling a signal to be received at a long period of time. . delete delete delete On the basis of the information about the signal intermittently received by using the second antenna when the signal is continuously transmitted or received by using the first antenna and the signal is intermittently received by the second antenna. An analysis process of analyzing the communication quality of the second antenna,
When the communication quality of the second antenna analyzed by the analyzing process is a communication quality level equal to or greater than a predetermined communication quality level, the signal is continuously transmitted or received using the second antenna, and the first When the communication quality of the second antenna that is intermittently receiving a signal using the antenna of, and the communication quality of the second antenna that is continuously transmitting or receiving the signal is a communication quality level equal to or greater than a predetermined communication quality level, the first antenna is used. And a control step of controlling the signal to be received by prolonging the period of receiving the signal intermittently.

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